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MAX6610AUT-T |MAX6610AUTTMAXN/a2267avaiPrecision / Low-Power / 6-Pin SOT23 Temperature Sensors and Voltage References


MAX6610AUT-T ,Precision / Low-Power / 6-Pin SOT23 Temperature Sensors and Voltage ReferencesELECTRICAL CHARACTERISTICS(V = 3.0 to 5.5V (MAX6610), V = 4.5V to 5.5V (MAX6611), T = T to T , unle ..
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MAX6610AUT-T
Precision / Low-Power / 6-Pin SOT23 Temperature Sensors and Voltage References
General Description
The MAX6610/MAX6611 are precise, low-power analog
temperature sensors combined with a precision voltage
reference. They are ideal for applications involving ana-
log-to-digital converters (ADCs), where the MAX6610/
MAX6611 provide the reference voltage for the ADC
and develop a temperature output voltage that is
scaled to provide convenient ADC output codes. An 8-
bit ADC’s LSB is equal to 1°C, while a 10-bit ADC’s LSB
corresponds to 0.25°C.
The MAX6610/MAX6611 are available in two versions.
The MAX6611 operates from a 4.5V to 5.5V power sup-
ply and has a 4.096V reference output. The MAX6610
operates from 3.0V to 5.5V and has a 2.560V reference
output. Power-supply current is less than 150µA (typ).
Both the MAX6610/MAX6611 are available in a 6-pin
SOT23 package and operate from -40°C to +125°C.
Applications

System Temperature Monitoring
Temperature Compensation
HVAC
Home Appliances
Features
±1°C AccuracyLow TC Reference (±10ppm, typ)Temperature Output Scaled for ADCsIntegrated Reference Voltage Scaled for
Convenient ADC Bit Weights
No Calibration RequiredLow Supply CurrentTiny 6-Pin SOT23 PackageLow-Current Shutdown Mode
MAX6610/MAX6611
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References
Ordering Information
Typical Application Circuit

19-2457; Rev 2; 11/03
Pin Configuration
MAX6610/MAX6611
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS

(VCC= 3.0 to 5.5V (MAX6610), VCC= 4.5V to 5.5V (MAX6611), TA= TMINto TMAX, unless otherwise noted. Typical values are at VCC
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
Voltages Referenced to GND
VCC........................................................................-0.3V to +6.0V
All Other Pins.............................................-0.3V to (VCC+ 0.3V)
Input Current......................................................................20mA
Output Current....................................................................20mA
Continuous Power Dissipation (TA= +70°C)
6-Pin SOT23 (derate 8.7mW/°C above +70°C) ........695.7mW
Operating Temperature Range (TMIN, TMAX)....-40°C to +125°C
ESD Protection (all pins, Human Body Model)..................2000V
Storage Temperature Range ............................-65°C to +150°C
Junction Temperature......................................................+150°C
Lead Temperature (soldering, 10s) ................................+300°C
MAX6610/MAX6611
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References
ELECTRICAL CHARACTERISTICS (continued)

(VCC= 3.0 to 5.5V (MAX6610), VCC= 4.5V to 5.5V (MAX6611), TA= TMINto TMAX, unless otherwise noted. Typical values are at VCC
= 5.0V (MAX6611) and VCC= 3.3V (MAX6610), TA= +25°C.) (Note 1)
Note 2:
Guaranteed to 4 sigma.
Note 3:
Guaranteed by design.
Typical Operating Characteristics

(VCC= 5V, IOUT= 0V, TA= +25°C, unless otherwise specified.)
MAX6610/MAX6611
Detailed Description

The MAX6610/MAX6611 combine a temperature sensor
with a low-power voltage reference. The reference volt-
age and temperature sensor gain give convenient LSB
weights when used with an ADC.
For example, when an 8-bit ADC is used with the
MAX6610/MAX6611, an LSB is equivalent to 1°C and a
10-bit ADC LSB is equivalent to 0.25°C.
The reference output features a proprietary tempera-
ture-coefficient, curvature-correction circuit and laser-
trimmed thin-film resistors that result in a low
temperature coefficient (50ppm/°C max) and initial
accuracy of ±0.5% max. The maximum supply current
is 250µA during normal operation and 1µA max during
shutdown. The supply voltage range is 3.0V to 5.5V for
the MAX6610 and 4.5V to 5.5V for the MAX6611.
Voltage Reference

The MAX6610/MAX6611 REF output provides a voltage
reference for ADCs or other system subcircuits. REF is
capable of driving loads of up to 1mA. An output
capacitor can be as large as 1µF.
The voltage reference provides scaled ADC conver-
sions with bit weights that are in convenient units.
For the MAX6610 (2.56V REF output), an 8-bit ADC
yields 10mV/bit or 2.5mV/bit for a 10-bit ADC. The
MAX6611 (4.096V REF output) yields 16mV/bit for an 8-
bit ADC or 4mV/bit for a 10-bit ADC.
Temperature Sensor

The MAX6610/MAX6611 TEMP output provides an ana-
log output voltage that is a linear function of its die tem-
perature as defined by:
VTEMP= 1.2V + (T°C ✕16mV/°C) for the MAX6611
and
VTEMP= 0.75V + (T°C ✕10mV/°C) for the MAX6610
The slope of the output voltage is VREF/256 per °C
(16mV/°C for the MAX6611 and 10mV/°C for the
MAX6610). There is a +75°C offset on the temperature
output (The MAX6611’s output is 1.2V and, the
MAX6610’s output is 0.75V) at 0°C. The temperature error
is less than 1.2°C at TA= +25°C, less than ±3.8°C from= -20°C to +85°C, and only ±5°C for TA= -40°C to
+125°C.
Shutdown

The MAX6610/MAX6611 are equipped with a shutdown
feature that, when driven low, shuts down all internal cir-
cuitry and reduces supply current to 1µA (max). When in
shutdown, REF is pulled to GND through a 150kΩresis-
tor and TEMP goes to a high-impedance state. For nor-
mal operation, connect SHDNto VCC.
Applications Information
Output/Load Capacitance

The MAX6610/MAX6611 TEMP output can drive capac-
itive loads up to 0.2µF. The MAX6610/MAX6611 REF
output can drive capacitive loads up to 1µF. Devices in
this family do not require an output capacitance for
dynamic stability. However, in applications where the
load or the supply can experience step changes, an
output capacitor within the specified range reduces the
amount of overshoot (or undershoot) and assists the
circuit’s transient response. Many applications do not
need an external capacitor, and this family can offer a
significant advantage in these applications when board
space is critical.
Supply Current

The quiescent supply current of the MAX6610/
MAX6611 is typically 150µA and is virtually indepen-
dent of the supply voltage. Unlike shunt-mode refer-
ences, the load current of series-mode references is
drawn from the supply voltage only when required, so
supply current is not wasted and efficiency is maxi-
mized over the entire supply voltage range. This
improved efficiency can help reduce power dissipation
and extend battery life.
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References
Sensing Circuit Board and
Ambient Temperatures

Temperature sensor ICs, like the MAX6610/MAX6611
that sense their own die temperatures, must be mount-
ed on, or close to, the object whose temperature they
are intended to measure. Because there is a good ther-
mal path between the package’s metal leads and the
IC die, the MAX6610/MAX6611 can accurately measure
the temperature of the circuit board to which it is sol-
dered. If the sensor is intended to measure the temper-
ature of a heat-generating component on the circuit
board, it should be mounted as close as possible to
that component and should share supply and ground
traces (if they are not noisy) with that component where
possible. This maximizes the heat transfer from the
component to the sensor. The thermal path between
the plastic package and the die is not as good as the
path through the leads, so the MAX6610/MAX6611, like
all temperature sensors in plastic packages, are less
sensitive to the temperature of the surrounding air than
to the temperature of the leads. They can be success-
fully used to sense ambient temperature if the circuit
board is designed to track the ambient temperature.
As with any IC, the wiring and circuits must be kept
insulated and dry to avoid leakage and corrosion,
especially if the part is operated at cold temperatures
where condensation can occur.
Self-Heating

The MAX6610/MAX6611 are low-power circuits and are
intended to drive light loads. As a result, the tempera-
ture rise due to power dissipation on the die is insignifi-
cant under normal conditions.
For example, assume that the MAX6611 is operating
from a 5V supply at +50°C (VTEMP= 2V) and that the
temperature output is driving a 100kΩload (ITEMP=
20µA). Also assume that the voltage reference is dri-
ving a 500µA load and the worst-case quiescent supply
current is used. In the 6-pin SOT23 package, the die
temperature increases above the ambient by 0.2°C.
Next, assume TEMP and REF are driving their maxi-
mum loads (ITEMP= 500µA and IREF= 1mA) and VCC
= 5V, and TA= +50°C (VTEMP= 2V). Here, the die tem-
perature increases above the ambient by 0.4°C.
A first order for self-heating effects can be estimated
from temperature and reference load currents and the
previous supply voltage.
Chip Information

TRANSISTOR COUNT: 1346
PROCESS: BiCMOS
MAX6610/MAX6611
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References
MAX6610/MAX6611
Precision, Low-Power, 6-Pin SOT23emperature Sensors and Voltage References

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
Package Information

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to /packages.)
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